Apparatus for and method of pulping waste paper

ABSTRACT

Method of pulping of waste papers is disclosed in this invention which includes a water supply and twin tube cylinder tanks mounted horizontally, and a shaft extending inside of the tanks, and flinger arms attached to the shafts, and the shafts rotate, being driven by electric motors, to pulp the waste paper in a water suspension, and the pulp slurry screened through a bank or plurality of perforated troughs and a perforated screw conveyor mounted in the perforated trough.

This application is a continuation-in-part of application Ser. No.08/659,878; filed Jun. 7, 1996 now U.S. Pat. No. 559,3098; SameINVENTORS.

Recovery and use of waste paper is of great concern and benefit to thenational economy, and in view of this the invention which is disclosedin the following specification and claims describing method andapparatus for pulping waste paper of all types including newsprint, boxboard writing paper etc.

BACKGROUND OF THE INVENTION

To date the apparatus for pulping, involves in general, a propellerextending into a tank containing waste paper in water, and the propellerbeing driven by a motor to disperse the fibers.

Prior art pertaining to dispersing and pulping apparatus is as follows.

U.S. Pat. No. 3,741,863 to BROOKS. Disclosure is made of a dry processfor solid waste recovery and the fibers may be used for board or paperproduction.

U.S. Pat. No. 4,017,033 to JOSEF TRA. Disclosure is made of a slusherand a sieve mounted behind an impeller in the slusher. The claims ofthis patent include only the slusher, perforated plate and impeller.

U.S. Pat. No. 4,160,722 to MARSH. This patent discloses a rotor in a tubfor disintegrating fibers and air separation of plastic pieces.

U.S. Pat. No. 5,520,780 to WALKER. This patent discloses a method andapparatus for de-inking newsprint pulp and including chemicals in suchmethod.

U.S. Pat. No. 4,382,559 to HELLBERG. This patent discloses utilizationof corrugated paper and includes a cylinder tumbling apparatus, andlongitudinal vanes or blades, which rotate in the same direction as thecylinder, but at a higher rpm than the cylinder.(see FIGS. 2 and 3 ofthis patent)

U.S. Pat. No. 14,385,997 to STRADAL. Method and apparatus is disclosedfor treatment of corrugate material.

U.S. Pat. No. 4,650,125 to PELLHAMMER. Disclosure is made of paddles ina horizontal tank, and a domed guide surface to guide the fiber stockmass.

U.S. Pat. No. 4,687,146 to SUNDMAN. A rotating drum, with a perforatedplate on the outlet end of the drum is disclosed, with retention controlin the drum being a function of the opening in a partition wall.

U.S. Pat. No. 4,867,383 to TERRY. Disclosure is made of shredding andscreening of waste paper by means of passing through a fan.

U.S. Pat. No. 4,991,720 to HOGLUND. This patent discloses an apparatusfor dividing a suspension of fibrous cellulose pulp by means of a flatdisc having teeth and rotation of this disk.

U.S. Pat. No. 5,125,584 to VUORINEN. Disclosure is made of rotor unitsand screen plates for pulp purification

U.S. Pat. No. 5,262,003 to CHUPKA. This patent discloses treatingfibrous materials with steam under pressure and a feed screw.

U.S. Pat. No. 5,372,316 to BATEMAN. Disclosure is made of swing hammersand hog for processing of waste for subsequent processing.

U.S. Pat. No. 5,324,389 to SPENCER. Disclosure is made in this patent ofapparatus of drum type pulpers, and including arms and buckets on thearms which dip into the pool of stock in the drum pulper.

U.S. Pat. No. 5,377,918 to PASTOR. A pulper is disclosed of a spiralshaped rotor for driving foreign bodies upward in an archimedes screw.

BRIEF SUMMARY OF THE INVENTION

Disclosure is made of apparatus for and method of pulping of waste paperand includes a bank or plurality of modified horizontal drums describedas twin tube cylinders with a central shaft extending horizontallythrough each cylinder and each shaft connected to a drive means torotate the shaft, and a plurality of flinger arms mounted on each shaft.

The horizontal dual drums or twin tube cylinders are assembledlengthwise, and the assembled dual drum pair or twin tube cylinders areopen each to the other equal to about from one half to two thirds of thediameter of the cylinders or drums, and assembled pairs of the dualdrums or twin tube cylinders are mounted horizontally and each assembleddual drum pair or twin tube cylinders are parallel and stacked one dualdrum pair or twin tube cylinder above another as required for adequatedispersion or pulping. It is preferred to provide a stack of two dualdrum pairs or twin tube cylinders mounted parallel and horizontally onepair over the other for adequate pulping, to provide adequate beating orpulping time of the waste paper water mix. To provide feed of the wastepaper to the assembled dual drum pairs, or twin tube cylinders there isprovided a feed inlet for the waste paper and a water inlet on the topend of the upper assembled dual drum pair, or twin tube cylinder and anoutlet on the bottom at the end opposite the inlet of the assembled dualdrum pair and this outlet feeds or flows into the inlet of the lowerassembled dual drum pair or twin tube cylinder mounted below the upperassembled dual drum pair or twin tube cylinder and the outlet at the endopposite the inlet of the lower assembled dual drum or twin tubecylinder feeds into a tank for this crude pulp slurry. To remove trashand stickies this crude pulp slurry flows through a perforated screwconveyor in a screen or perforated trough and the trash and stickies aremoved upward by the perforated screw and discharged to waste and thescreened pulp slurry obtained after screening by the screw trough isfree of trash and stickies.

Further summary of this invention is to disclose a method of pulpingwaste paper in water in a twin tube pulping cylinder tank mountedhorizontally and, the twin tube pulping cylinder tank mountedhorizontally above and parallel to a lower twin tube pulping cylindertank and the waste paper entering in a paper feed opening on the top ofthe twin tube pulping cylinder tank mounted over the lower twin tubepulping cylinder tank and, the paper feed opening of the twin tubepulping cylinder tank located at the top and end of the upper twin tubecylinder tank and, continuous beating of the waste paper added to waterin the twin tube pulping cylinder by means of a shaft in each of thetwin tube pulping cylinders, and each said shaft extending to anelectric motor for rotating of the shafts and, a plurality of flingerarms, attached to split ring fasteners on each shaft. A pulp slurryoutlet extending from the upper twin tube pulping cylinder tank mountedabove the lower twin tube cylinder tank, and the outlet of the uppertwin tube cylinder tank extending into the lower twin tube cylinder tankand, the pulp slurry flowing through the outlet from the lower twin tubepulping cylinder tank to a crude pulp slurry tank. Means are disclosedfor aeration comprising aeration nozzles for compressed air inletthrough the nozzles into bottom of the crude pulp slurry tank and theaeration nozzles directing air flow upward through crude pulp slurryupward to vertically mounted baffle plates and screening of crude pulpslurry by means of at least one perforated conveyor trough, mounteddiagonally upward in the crude pulp slurry tank and, a revolvingperforated screw conveyor mounted in the perforated trough and, acollection tank mounted under the perforated conveyor trough forcollection of screened pulp slurry from the perforated troughs andperforated screws.

To further describe this invention of a method for pulping of wastepaper flinger arms having an arcuate shape and the flinger arms mountedon split ring mounts on the shafts at an angle of about 2° to 10° fromthe horizontal of the split ring mount and means for maximum pulping,which means are flinger arms on the shafts in each twin tube pulpingcylinder tank which are mounted as mirror images of each other andflinger arms shafts rotating in opposite directions and each shaft andflinger arms rotated in the direction of the outer ends of the flingerarms leading in the direction of rotation to throw together said pulpslurry for maximum pulping action.

As an alternate the rotation of the shaft may be in the oppositedirection to that stated above, with the outer ends of the flinger armstrailing to the direction of rotation.

The flinger arms and shafts rotating at a range of 20 to 400 revolutionsper minute.

The screening of the crude pulp slurry is by means of at least oneperforated trough and a perforated screw in the perforated trough and,an electric motor connected to the perforated screw and, the perforatedtrough and the perforated screw mounted diagonally in the crude pulpslurry tank at an angle of 20° to 40° and a collector tank mounted underthe perforated trough and the perforated screw for collection ofscreened pulp slurry.

The shafts with flinger arms in each twin tube pulping cylinder tankrotate in opposite directions to fling the pulp slurry to impact thepulp slurry on itself between the flinger arms for maximum dispersion ofthe pulp slurry.

OBJECTS OF THE INVENTION

An object of this invention is to disclose apparatus for and method ofpulping waste paper which includes an assembly of dual drums or twintube cylinders comprising a single unit and open each to the other equalto about from one half to two thirds of the diameter of the drums orcylinders and shafts extending lengthwise centered in each of the dualdrums or twin tube cylinders and flinger arms mounted on the shafts andmounted at a pitch to move the slurry in a direction away from the inletand towards the outlet of the dual drum or twin tube cylinders.

Another object of this invention of apparatus for and method of pulpingwaste paper is to disclose stack mounting, in parallel of at least twohorizontal assemblies of dual drums one above the other and shaftsextending horizontally in each dual drum or twin tube cylinder assemblyand flinger arms mounted on the shafts at a pitch for propeller actionto move the slurry from the inlet to the outlet of the assembled dualdrums or twin tube cylinder assembly and the flinger arms mounted on theshafts in each of the assembled dual drums or twin tube cylinderassembly.

Another object of this invention of apparatus for and method of pulpingwaste paper is to disclose an assembly of perforated troughs, andperforated screw conveyors under the outlet of the lowest dual drum ortwin tube cylinder assembly pair for screening of the outflow of thepulp slurry for removal of trash and stickies by a perforated screwworking in a perforated trough.

BRIEF DESCRIPTION OF DRAWINGS.

FIG. 1--Side elevational view of dual or twin tube cylinder pulping tankassembly.

FIG. 2--Cross section elevational view of twin tube cylinders andcollector tank.

FIG. 3--End elevational view of screened pulp slurry tank.

FIG. 4--Cross section end elevational view of twin tube cylinders andflow duct from upper cylinders to lower cylinders.

FIG. 5--Cross section end elevational view of flow duct from lower twintube cylinder to crude slurry pulp tank

FIG. 6--Plan view of overflow duct from upper twin tube cylinder pulperto lower twin tube cylinder pulper.

FIG. 7--Mounting of flinger arms on split ring around shaft.

FIG. 8--Isolation elevation view of split ring for mounting of flingerarms.

FIG. 9--Enlarged cross section view of shaft and flinger arm mounts.

FIG. 10--Enlarged cross section end view of twin tube cylinder mounts asmounted for pulping.

FIG. 11--Enlarged side elevational view of split ring mount on shaft formounting of flinger arms.

FIG. 12--Plan view of twin tube cylinder pulping tank with top partlyuncovered.

FIG. 13--Baffle plates.

FIG. 14--Flinger arm.

FIG. 15--Cross section of flinger arm.

FIG. 16--Section in perspective of a perforated trough and spiral screwconveyor.

FIG. 17--Flinger arms alignment.

FIG. 18--Relation of flinger arms to pulping cylinder.

FIGS. 19, 20, 21--Cross section elevational view showing other alternatedirection of rotation of shafts.

LEGENDS OF DRAWINGS

1, 1', 1", 1'"-Twin tube pulping cylinders.

2--Flinger arms.

3--Shafts.

4--Water inlets.

5--Electric motors.

6--Perforated trough for conveyor screw.

7--Spiral perforated screw conveyor.

8--Crude pulp slurry tank.

9 --Aeration nozzles--compressed air inlet.

10--Trash removed.

11--Screened pulp.

12--Crude pulp.

13,13',13"--Baffles.

14--Screened pulp outlet.

15, 15'--Pulp slurry outlets, or flow ducts.

16--Perforations in trough for conveyor screw.

17--Sludge drain from screw flight trough.

18--Waste paper feed inlet.

19--Water feed inlet.

20--Ink sludge discharge.

21--Split ring mount for flinger arms.

22--Split ring fasteners.

23--Bolt mount for flinger arm attachment to split ring mount.

24--Clean out doors.

25--Waste paper feed.

26--Discharge end of screw conveyor.

27--Collector tank for screened pulp slurry.

28--Motor drive for screw conveyor.

29--Trailing or back side of flinger arm.

30--Leading or front side of flinger arm.

31--Brackets for mounting of baffles.

32, 32' Maximum pulping area

33--Perforations in screw conveyor.

34--Outer end of flinger arms.

A--Angle from horizontal of flinger arm face.

F--Flow direction of slurry.

D--Diagonal mounting angle of perforated troughs with perforatedscreens.

DETAILED DESCRIPTION OF INVENTION

This disclosure describes apparatus and method of pulping of waste paperand includes a bank or plurality of at least two horizontal drumsattached each to the other, side by side lengthwise and are described astwin tube cylinders 1, 1' (see FIGS. 1 and 2) with a central shaft 3 ineach of the tube cylinders and the shafts 3 extending horizontallythrough each tube cylinder 1, 1' 1" 1'" and each shaft 3 connected to adrive means such as an electric motor 5, to rotate the shaft 3, and aplurality of flinger arms 2 (see FIGS. 1, 7, 10) mounted on each shaft3.

The horizontal dual drums or twin tube cylinders 1, 1' 1" 1'" areassembled lengthwise, (see FIGS. 1, 4, 10) and the assembled dual drumpair 1, 1' or 1", l'" twin tube cylinders are open each to the other ofthe pair equal to about from one half to two thirds of the diameter ofthe cylinders or drums, (see FIGS. 2, 10) and assembled pairs of thedual drums or twin tube cylinders 1, 1' and pair 1", 1'" are mountedhorizontally (see FIGS. 1, 12) and each assembled dual drum pair or twintube cylinders 1, 1' and pair 1", 1'" are parallel and stacked one dualdrum pair or twin tube cylinder 1, 1' stacked or mounted above anotherpair 1", 1'" as required for adequate dispersion or pulping. It ispreferred to provide a stack of two dual drum pairs or twin tubecylinders 1, 1' mounted horizontally over another pair 1", 1'" foradequate pulping, to provide adequate beating or pulping time of thewaste paper water mix. To provide feed of the waste paper 25, to theassembled dual drum pairs, or twin tube cylinders 1, 1' there isprovided a feed inlet 18 for the waste paper 25, and water inlets 4 onthe top end of the upper assembled dual drum pair or twin tube cylinder1, 1' and a pulp slurry outlet 15 on the bottom at the end opposite theinlet of the assembled dual drum pair 1, 1' and this outlet 15 feedsinto the inlet of the lower assembled dual drum pair or twin tubecylinder 1", 1'" mounted below the upper assembled dual drum pair ortwin tube cylinder 1, 1' and the pulp outlet 15' at the end opposite theinlet of the lower assembled dual drum or twin tube cylinder 1", 1'"feeds into crude pulp slurry tank 8 (see FIGS. 2, 3, 5) for crude pulpslurry 12. To remove trash and stickies 10, the crude pulp slurry 12flows through an assembly of perforated trough or screen 6, and a spiralscrew conveyor 7 having perforations 33, mounted in the perforated orscreen trough 6 and trash 10 and stickles 10 are moved upward by theperforated 33 screw conveyor 7 and discharged to waste at the dischargeend 26 of the spiral perforated screw conveyor 7, and the screened pulpslurry 11 obtained after screening by the screw trough 6 assembly isfree of trash and stickies and collects in tank 27 (see FIG. 2, 3).

The pulp slurry outlets 15 and 15' can best be described as a standpipeor overflow which extends upward to be at about the level of the shafts3, and extends for a width between the shafts 3 as shown in FIGS. 6 and12 and maintains a slurry in the tank for continuous beating by flingerarms 2. Referring now to FIGS. 7 and 9, the flinger arms 2, are shownmounted on split ring 21 mount for the flinger arms 2 which are mountedon the split ring 21 by bolt mounts 23 for flinger arm attachment tosplit ring mount 21. To further show the mounting of the flinger arms 2,mounted on split ring mount 21, reference is now made to FIGS. 8 and 11the flinger arms 2 are mounted on the split ring 21 at an angle A ofabout 2° to about 10° from the horizontal position of the shafts 3,which positioning of the mounting angle gives the flinger arms somepropeller action to push the pulping slurry toward the outlets 15, 15'end of the twin tube pulping cylinder 1, 1' and 1", 1'". FIG. 14 shows atypical flinger arm 2, and legend 29 shows the top or back side, legend30 shows the under side which on mounting the flinger arm 2, at an angleas described above gives the propeller action above mentioned, to giveproper flow, as indicated by legend F, in the pulping apparatus shown inFIG. 1. FIG. 15 is a section view showing the top side 29 of flinger arm2.

FIG. 13, shows an end view of crude pulp slurry tank 8, and shows thebaffles 13, 13' and 13" as mounted on brackets 31 in tank 8 holdingcrude pulp 12. Air inlet nozzles 9 mounted under the baffles 13, 13'13", which air inlet nozzles 9 direct air up through the baffles 13, 13'13' to help float any stickles in the crude pulp 12, which are washedinto the perforated trough 6, and moved upward to discharge end 26 onactuation of the spiral perforated screw conveyor 7 in perforated trough6 for conveyor screw 7. Referring now to FIGS. 1 and 13, the baffles 13,13' 13" are mounted vertically on brackets 31 and the top edges of thebaffles are bent lengthwise in a 90° arc at about a 5 inch radius, andarc edges pointing toward the perforated troughs 6. Water feed inlets 4'and 19 inlets are located to add water to tank 8 and in the pulp slurryoutlet 15', or elsewhere as needed.

FIG. 16 is a segment of the perforated trough 6 for conveyor screw andlegend 16 are the perforations in the trough 6, for the conveyor screw7. Referring now to FIG. 1 the perforated trough section is mounted atan angle to raise the oversize pieces from the crude pulp 12 in tank 8,and discharge the oversize and stickles at discharge end 26 of screwconveyor for trash removed 10. At the lower end of the perforated trough6 there is a 17 sludge drain from this screw flight trough 6.

In the above discussion there is described the conveyor screw 7 and theperforated trough 6 but now on referring to FIGS. 2 and 3 there is showna bank of perforated troughs 6, and screw conveyors 7 for screening thecrude pulp 12 and as noted in these FIGS. 2 & 3 all the crude pulp 12 ischanneled onto the perforated troughs 6 and the screened pulp 11 iscollected in tank 27, and is described as "screened" pulp todifferentiate this from the crude pulp 12. Motor drive 28, actuates thescrew conveyor.

As stated above the bank of perforated troughs 6, with perforated screws7, are mounted diagonally and extending upward at an angle D, as shownin FIG. 1, and this angle can be from about 20° to about 40°.

Referring now to FIG. 1, legend 14 is screened pulp outlet for furtherprocessing such as paper forming of this pulp slurry. Provision is madefor ink sludge discharge 20, at the outlet end of perforated trough 6,for conveyor screw 7,

Clean out doors 24, (see FIG. 1) are mounted on the outlet ends of thetwin tube pulping cylinders 1 1' and 1" 1'", or can be mounted elsewhereas desired.

In all of the above discussion the perforated trough 6 and the spiralscrew conveyor 7, having perforations 33, are discussed as a singularunit but as shown in FIG. 2, there is an assembly or a bank of suchapparatus, for screening the crude pulp to remove the trash, and inksludge to give a screened pulp 11.

Crude pulp, as described above, is the unscreened pulp as obtained fromthe twin tube pulping cylinders 1" and 1'".

In regard to the flinger arms 2, there is a plurality of these attachedto the shafts 3 of the twin tube pulping cylinders. These flinger armsare attached in sets as shown in FIGS. 2, 4, 7, 9, and 10 and sets ofthese are mounted on shafts 3, thus a shaft of 20 feet in length therewould be about twenty sets of these flinger arms.

In regard to the rotation of the shafts 3 on which the flinger arms 2are mounted the shafts revolve in the direction shown in FIGS. 2 4 and10, in twin tube cylinder 1' the shaft revolves clockwise, while in twintube cylinder 1, the shaft revolves counter-clockwise and in twin tubecylinder 1'" the shaft revolves clockwise, and in twin tube cylinder 1'the shaft revolves counter-clockwise with the outer ends 34, of theflinger arms 2 leading in the direction of rotation such that pulpingslurry in cylinders 1, 1' and 1", 1'" is thrown together as shown inFIGS. 2 and 10, legends 32 and 32', for maximum pulping action.

Alternate direction of rotation of the shafts and flinger arms is shownin FIGS. 19, 20, and 21.

In this invention the rate of rotation of the shafts would be from about40 to 200 rpm for adequate pulping.

Referring now to FIGS. 2 and 10, legends 32 and 32' indicate the maximumpulping area of this apparatus due to the impacting of the slurrybetween the flinger arms.

The arms 2, extend to about 3 or 4 inches from the walls of thecylinders 1, 1' 1" 1'" which could be a radius of about twenty four tosixty inches or more in diameter.

To attain maximum efficiency of this pulping apparatus the flinger arms2 are mounted onto the split ring fasteners 22, in sets of three flingerarms per split ring fastener 22 and now referring to FIG. 12, which is aplan view of the pulping apparatus the flinger arms 2 are shown, and areto be mounted on the shafts 3, 3, to be as shown in FIG. 17, which is toshow flinger arms alignment. Commencing at the waste paper feed 18, asshown in FIG. 12 plan view of the pulping tank, a set of three flingerarms are mounted on split ring 21 mount for flinger arms on the shaft 3end inside the twin tube pulping cylinder 1' and one arm is mounted atthe 12 o'clock position, and in twin tube pulping cylinder 1, a set ofthree flinger arms is mounted on shaft 3 in cylinder 1, in line with theflinger arm mount in twin tube pulping cylinder 1'. The next set offlinger arms 2 are mounted on a split ring mounted next to the firstsplit ring mount 21, and in this next mount in twin tube pulpingcylinder 1', one flinger arm 2 is mounted in the 1 o'clock position, andin twin tube cylinder 1 this next mount of the flinger arms is mountedin the 1 o'clock position, which is then in line with the flinger arms 2in twin tube pulping cylinder 1'. The next alignment is at the 2 o'clockposition, then 3 o'clock then 4 o'clock etc. and continuing for thelength of the shafts 3.

With the above alignment of the flinger arms 2, there is a maximumpulping action as the arms on shafts 3 in twin tube pulping cylinders 1,1' 1" 1'", cause maximum pulping in area 32. Flinger arms 2 mounting intwin tube pulping cylinders 1" and 1'" are mounted in the same manner asdescribed above in twin tube cylinders 1 and 1', and rotation of theshafts can be as shown in FIGS. 2,4,10,19,20, and 21

To describe this apparatus in practical dimensions the twin tube pulpingcylinders 1, 1' and 1", 1'41 can have arms having a width of 113/4inches, and a length of arc of about 25 inches, and the arc having aradius of about 18 inches.

The apparatus of this invention can be described further as a twin tubepulping cylinder tank 1, 1' pair mounted horizontally (see FIG. 1) andwater inlets 4 in the twin tube pulping cylinder tank 1, 1' mountedhorizontally above and parallel to a lower twin tube pulping cylindertank 1", 1'" and a waste paper feed opening 18 on the top of the twintube pulping cylinder tank 1, 1' mounted over a lower twin tube pulpingcylinder tank 1" 1'", and the waste paper feed opening 18 of the twintube pulping cylinder tank 1, 1' located at the top and end of the uppertwin tube pulping cylinder tank 1, 1' and a shaft 3, in each of the twintube pulping cylinders 1, 1', 1", 1'" and each shaft 3, extending to anelectric motor 5, and a plurality of flinger arms 2, (see FIGS.7,9,10,12,18) in sets of three (see FIGS. 7,10) attached to split ringfasteners 22, on split ring mount 21, for flinger arms 2, on shafts 3,and a pulp slurry outlet 15, extending from the upper twin tube pulpingcylinder tank 1, 1' (see FIG. 4) mounted above the lower twin tube lowertwin tube pulping cylinder tank 1", 1'" and the pulp slurry outlet orflow duct 15 extending into the lower twin tube pulping cylinder tank1", 1'" and a pulp slurry outlet 15' from the lower twin tube pulpingcylinder tank 1", 1'" to crude pulp slurry tank 8, and a plurality ofperforated conveyor troughs 6 mounted diagonally upward (see FIG. 1) inthe crude pulp slurry tank 8, and a perforated screw conveyor 7, mountedin each of the perforated troughs 6 and a tank 27 mounted under theplurality of perforated conveyor troughs 6, (see FIG. 2).

As an alternate to the radius noted above for the flinger arms 2, theflinger arms may be of a cycloid shape.

Reference is now made to FIG. 1, wherein legend F indicates the flowdirection of the slurry through the twin tube pulping cylinders 1, 1',1", 1'" and through the perforated trough 7, and conveyor screw 6.

In regard to the mounting, as discussed above, of the flinger arms 2, onthe shaft 3, FIG. 18 shows the relationship of these flinger arms 2, tothe twin tube pulping cylinder as an example and would be the same forall of the twin tube pulping cylinders in relation to flinger arms 2,which are all the same length and width.

The perforations 16 in the conveyor troughs 7 and perforated spiralscrew conveyor 6 which are mentioned in the above discussion can rangein size from 0.25 inches to 0.50 inches in diameter (6.25 mm to 12.5 mmdiameter) depending on pulp fineness desired.

It is to be pointed out that the pulping apparatus includes water inlets4 and 19 which may be located in many different locations on the twintube pulping cylinder tanks 1, 1', 1", 1'" and on the pulp slurry tanks8 and 27.

In the above description of this invention, the word "stickles" is used.The meaning of this word is material other than paper, and is to includeplastics such as glassine, and other trash which floats on the surfaceof the crude pulp slurry.

The word "drum" may be used interchangeably with the word "drum".

Further summary of this invention is to disclose a method of pulpingwaste paper in water in twin tube pulping cylinder tanks 1,1',1",1'"mounted horizontally and, the twin tube pulping cylinder tank 1,1'mounted horizontally above and parallel to a lower twin tube pulpingcylinder tank 1',1'",(see FIGS. 1,2,10).

The waste paper 25 entering in a paper feed inlet or opening 18 on thetop of the twin tube pulping cylinder tank 1,1' mounted over the lowertwin tube pulping cylinder tank 1',1'" and, the paper feed opening 18 ofthe twin tube pulping cylinder tank 1,1' located at the top and end ofthe upper twin tube cylinder tank 1,1' and, means for continuous beatingof the waste paper 25 added to water in the twin tube pulping cylinderby means of a shaft 3 in each of the twin tube pulping cylinder tanks1,1',1",1'", and each shaft 3 extending to an electric motor 5,(seeFIGS. 1,12) for rotating of the shafts 3 and, a plurality of flingerarms 2, (see FIG. 1) attached to split ring fasteners on each shaft. Apulp slurry outlet 15 (see FIG. 1,4,6) slurry outlet extending from theupper twin tube pulping cylinder tank 1,1' mounted above the lower twintube cylinder tank 1",1'", and the outlet 15 of the upper twin tubecylinder tank 1,1' extending into the lower twin tube cylinder tank1",1'" and the crude pulp slurry 12 flowing through the outlet 15' fromthe lower twin tube pulping cylinder tank 1",1'" to a crude pulp slurrytank 8, (see FIG. 1) Means are disclosed for aeration comprisingaeration nozzles 9, (see FIG. 1) for compressed air inlet through thenozzles 9 into bottom of the crude pulp slurry tank 8 and the aerationnozzles 9 directing air flow upward through the crude pulp slurry 12upward to vertically mounted baffle plates 13,13',13" and screening ofcrude pulp slurry 12, by means of at least one perforated conveyortrough, mounted diagonally D (see FIG. 1) upward in the crude pulpslurry tank 8 and a revolving perforated screw conveyor 7 mounted in theperforated trough 6 and a collector tank 27 mounted under the perforatedconveyor trough 6 for collection of screened pulp slurry 11, from theperforated troughs 6 and perforated screws 7.

To further describe this invention of a method for pulping of wastepaper there are flinger arms 2 having an arcuate shape (see FIGS.2,4,7,9,14) and the flinger arms 2 mounted on split ring mounts 21 onthe shafts 3, at an angle of about 2° to 10° from the horizontal of thesplit ring mount 21 and means for maximum pulping area, 32, 32' whichmeans are flinger arms 2 on the shafts 3 in each twin tube pulpingcylinder tank 1,1',1",1'", which are mounted as mirror images of eachother (see FIGS. 2,4,10) and flinger arms shafts 3 rotating in oppositedirections and each shaft 3 and flinger arms 2 rotated in the directionof the leading ends 34 (see FIG. 14) of the flinger arms 2 leading inthe direction of rotation to throw together said pulp slurry 12 formaximum pulping action. (see FIGS. 2,10).

The flinger arms and shafts 3 rotating at a range of 20 to 400revolutions per minute.

The screening of the crude pulp slurry is by means of at least oneperforated trough 6 and a perforated screw 7 in the perforated trough 6and, an electric motor 28 connected to the perforated screw 7 and theperforated trough 6 and the perforated screw 7 mounted diagonally D (seeFIGS. 1,2) in the crude pulp slurry tank 8 at an angle of 20° to 40° anda collector tank 27 mounted under the perforated trough 6 and theperforated screw 7 for collection of screened pulp slurry 11.

Further summary of this invention is to disclose a method of pulpingwaste paper in water in twin tube pulping cylinder tanks 1,1',1",1'"mounted horizontally and, the twin tube pulping cylinder tank 1,1'mounted horizontally above and parallel to a lower twin tube pulpingcylinder tank 1",1'",(see FIGS. 1,2,10).

The waste paper 25 entering in a paper feed inlet or opening 18 on thetop of the twin tube pulping cylinder tank 1,1' mounted over the lowertwin tube pulping cylinder tank 1',1'" and, the paper feed opening 18 ofthe twin tube pulping cylinder tank 1,1' located at the top and end, ofthe upper twin tube cylinder tank 1,1' and, means for continuous beatingof the waste paper 25 added to water in the twin tube pulping cylinderby means of a shaft 3 in each of the twin tube pulping cylinder tanks1,1',1",1'", and each shaft 3 extending to an electric motor 5,(seeFIGS. 1,12) for rotating of the shafts 3 and, a plurality of flingerarms 2, (see FIG. 1) attached to split ring fasteners on each shaft. Apulp slurry outlet 15 (see FIGS. 1,4,6) slurry outlet extending from theupper twin tube pulping cylinder tank 1,1' mounted above the lower twintube cylinder tank 1",1'", and the outlet 15 of the upper twin tubecylinder tank 1,1' extending into the lower twin tube cylinder tank1",1'" and the crude pulp slurry 12 flowing through the outlet 15' fromthe lower twin tube pulping cylinder tank 1",1'" to a crude pulp slurrytank 8, (see FIG. 1). Means are disclosed for aeration comprisingaeration nozzles 9, (see FIG. 1) for compressed air inlet through thenozzles 9 into bottom of the crude pulp slurry tank 8 and the aerationnozzles 9 directing air flow upward through the crude pulp slurry 12upward to vertically mounted baffle plates 13,13',13" and screening ofcrude pulp slurry 12, by means of at least one perforated conveyortrough, mounted diagonally D (see FIG. 1) upward in the crude pulpslurry tank 8 and a revolving perforated screw conveyor 7 mounted in theperforated trough 6 and a collector tank 27 mounted under the perforatedconveyor trough 6 for collection of screened pulp slurry 11, from theperforated troughs 6 and perforated screws 7.

To further describe this invention of a method for pulping of wastepaper there are flinger arms 2 having an arcuate shape (see FIGS.2,4,7,9,14) and the flinger arms 2 mounted on split ring mounts 21 onthe shafts 3, at an angle of about 2° to 10° from the horizontal of thesplit ring mount 21 and means for maximum pulping area, 32, 32' whichmeans are flinger arms 2 on the shafts 3 in each twin tube pulpingcylinder tank 1,1',1",1'", which are mounted as mirror images of eachother (see FIGS. 2,4,10) and flinger arms shafts 3 rotating in oppositedirections and each shaft 3 and flinger arms 2 rotated in the directionof the leading ends 34 (see FIG. 14) of the flinger arms 2 leading inthe direction of rotation to throw together said pulp slurry 12 formaximum pulping action. (see FIGS. 2,10).

The flinger arms and shafts 3 rotating in any of the alternatedirections above noted at a range of 20 to 400 revolutions per minute.

The screening of the crude pulp slurry is by means of at least oneperforated trough 6 and a perforated screw 7 in the perforated trough 6and, an electric motor 28 connected to the perforated screw 7 and theperforated trough 6 and the perforated screw 7 mounted diagonally D (seeFIGS. 1,2) in the crude pulp slurry tank 8 at an angle of 20° to 40° anda collector tank 27 mounted under the perforated trough 6 and theperforated screw 7 for collection of screened pulp slurry 11.

The shafts 3 with flinger arms 2 in each twin tube pulping cylinder tank1,1',1",1'" rotate in opposite directions to fling the crude pulp 12slurry to impact the pulp slurry on itself between the flinger arms32,32' for maximum dispersion of the crude pulp 12 slurry. The directionof rotation of the shafts may be as above noted in FIGS. 2, 4, 10, 19,20, and 21.

The flow F of the pulping process is shown in FIG. 1, from twin tubepulping cylinder tanks 1,1',1",1'" to crude pulp tank 8 for crude pulp12, then through perforated trough 6 into collector tank 27 for screenedpulp slurry 11, thence through screened pulp outlet 14, for furtherprocessing to paper, or for other uses.

In order to better identify direction of rotation of the shafts with theflinger arms attached thereto, reference is made to FIGS. 2, 4, 5, and10 with arrows pointing in the direction of rotation which shows outerends 34, of flinger arms 2 leading in the direction of rotation. FIGS.19 and 20 show the outer ends 34 of flinger arms 2 trailing in therotation. FIG. 21 shows outer end 34 of flinger arms leading in therotation of the shafts 3 and flinger arms 2 but scooping upward from thebottom of tanks 1, 1',1", 1'".

Having described our invention we claim:
 1. Method of pulping wastepaper comprising;a--waste paper added to water in a twin tube pulpingcylinder tank mounted horizontally and, b--said twin tube pulpingcylinder tank mounted horizontally above and parallel to a lower twintube pulping cylinder tank and said waste paper entering in paper feedopening on the top of said twin tube pulping cylinder tank mounted oversaid lower twin tube pulping cylinder tank and, c--said paper feedopening of said twin tube pulping cylinder tank located at the top andend of said upper twin tube cylinder tank and, d--continuous beating ofsaid waste paper added to water in said twin tube pulping cylinder bymeans of a shaft in each of said twin tube pulping cylinders, and eachsaid shaft extending to an electric motor for rotating of said shaftsand, e--a plurality of arcuate flinger arms, attached to split ringfasteners on each said shaft and, f--a pulp slurry outlet extending fromsaid upper twin tube pulping cylinder tank mounted above said lower twintube cylinder tank, and said outlet of said upper twin tube cylindertank extending into said lower twin tube cylinder tank and, g--pulpslurry flowing through outlet from said lower twin tube pulping cylindertank to a crude pulp slurry tank and, h--means for aeration comprisingaeration nozzles for compressed air inlet through said nozzles intobottom of said of said crude pulp slurry tank and said aeration nozzlesdirecting air flow upward through crude pulp slurry upward to verticallymounted baffle plates and, i--screening of crude pulp slurry by means ofat least one perforated conveyor trough, mounted diagonally upward insaid crude pulp slurry tank and, j--a revolving perforated screwconveyor mounted in said perforated trough and, k--a collection tankmounted under said perforated conveyor trough for collection of screenedpulp slurry from said perforated troughs and perforated screws. 2.Method for pulping of waste paper, of claim 1 further improvementcomprising;a--said flinger arms having an arcuate shape and b--saidflinger arms mounted on said split ring mount on said shafts at an angleof about 2° to 10° from the horizontal of said split ring mount and,c--and means for maximum pulping area which means comprises said flingerarms on said shafts in each twin tube pulping cylinder tank are mountedas mirror images of each other and flinger arms shafts rotating inopposite directions and each said shaft and flinger arms rotated in thedirection of the outer ends of said flinger arms leading in thedirection of rotation to throw together said pulp slurry for maximumpulping action and d--said shafts and flinger arms rotating at a rangeof 20 to 400 revolutions per minute.
 3. In the method of claim 2 forpulping of waste paper further improvement comprising;a--said flingerarms and shafts rotating at a range of 20 to 400 revolutions per minuteand b--said flinger arms and shafts rotating in the direction of theouter ends of said flinger arms trailing in direction of rotation tothrow together said pulp slurry.
 4. A method for pulping waste paper ofclaim 1 further improvement comprising;a--screening of crude pulp slurryby means of at least one perforated trough and a perforated screw insaid perforated trough and, b--an electric motor connected to saidperforated screw and, c--said perforated trough and said perforatedscrew mounted diagonally in said crude pulp slurry tank at an angle of20° to 40° and a collector tank mounted under said perforated trough andsaid perforated screw for collection of screened pulp slurry.
 5. Amethod for pulping waste paper of claim 4 wherein the improvementcomprises;said shafts with flinger arms in each twin tube pulpingcylinder tank rotate in opposite directions to fling said pulp slurry toimpact said pulp slurry on itself between said flinger arms for maximumdispersion of said pulp slurry.